Soil of the parent plant and AMF mix improve Cerrado’s seedlings growth in forest nurseries

IF 1.5 4区 农林科学 Q2 FORESTRY
GM Abreu, Hnd Paiva, MC Megumi Kasuya, Sdd Paula, BD Guirardi, Gdm Araújo
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引用次数: 1

Abstract

The soil microbiota plays an extremely important role in the growth and survival of plants. The presence of some microorganisms can positively and significantly impact the growth of tree species, which can improve the performance of seedlings after planting for commercial purposes and/or for ecosystem restoration. The present study aimed to evaluate the initial growth of seedlings of Hancornia speciosa and Brosimum gaudichaudii associated with microorganisms from the soil of the parent tree and/or inoculated with arbuscular mycorrhizal fungi (AMF). Four substrates were tested: T1 (control) = Autoclaved dystrophic Red-Yellow Latosol (Aut-dRYL) + autoclaved commercial substrate (Aut-CS); T2 = Aut-dRYL + Aut-CS + inoculum of AMF (Mix); T3 = Aut-dRYL + Aut-CS + soil of the parent plant (SPP); and T4 = Aut-dRYL + Aut-CS + SPP + Mix. The AMF inoculum comprised a mix of the species Gigaspora decipiens, Rhizophagus clarus, and Scutellospora heterogama . Seedling growth was determined 270-350 days after transplanting by measuring the following parameters: mycorrhizal colonization rate (MC), abundance of spores (AS), height (H), stem diameter (D), H/D ratio, volume of roots (VR), dry matter of shoot (SDM), roots (RDM), total (TDM), shoot / root dry matter ratio (SDM/RDM), height / shoot dry matter ratio (H/SDM), and Dickson quality index (DQI). The results showed that the addition of SPP improved the growth and DQI of the seedlings, while the AMF mix minimally changed both growth and DQI. The use of symbiotic microorganisms in the nursery in Brazil is scarse due to the difficulty of acquiring these microorganisms and the lack of commercialization of specific isolates for species native to the Cerrado biome. The present study evaluated the use of soil from naturally occurring areas as a source of inoculum. The higher growth and biomass production of inoculated plants support the use of SPP as a form of inoculum and/or inoculation with native AMF to produce seedlings of H. speciosa and B. gaudichaudii .
母本与AMF混合土壤对塞拉多苗圃幼苗生长有促进作用
土壤微生物群对植物的生长和生存起着极其重要的作用。一些微生物的存在可以对树种的生长产生积极而显著的影响,这可以改善用于商业目的和/或生态系统恢复的幼苗种植后的性能。本研究的目的是评价汉冠(Hancornia speciosa)和布罗姆(Brosimum gaudichaudii)幼苗在母树土壤微生物和/或接种丛枝菌根真菌(AMF)的作用下的初始生长情况。测试了四种底物:T1(对照)=蒸压营养不良红黄Latosol (Aut-dRYL) +蒸压商业底物(Aut-CS);T2 = Aut-dRYL + Aut-CS + AMF接种量(Mix);T3 = Aut-dRYL + Aut-CS +母株土壤(SPP);T4 = Aut-dRYL + Aut-CS + SPP + Mix。AMF的接种物由脱穗巨孢子菌、根噬菌和异花褐孢菌混合组成。在移栽270 ~ 350 D后,通过测定菌根定植率(MC)、孢子丰度(AS)、株高(H)、茎粗(D)、H/D比、根体积(VR)、茎干物质(SDM)、根干物质(RDM)、总量(TDM)、茎/根干物质比(SDM/RDM)、株高/茎干物质比(H/SDM)、Dickson质量指数(DQI)等参数来测定幼苗生长情况。结果表明:SPP的添加提高了幼苗的生长和DQI,而AMF的添加对幼苗生长和DQI的影响最小。在巴西的苗圃中很少使用共生微生物,因为很难获得这些微生物,而且塞拉多生物群系原生物种的特定分离物缺乏商业化。本研究评估了自然发生地区的土壤作为接种物来源的利用。接种植物的较高生长和生物量产量支持SPP作为接种和/或与本地AMF接种的一种形式来生产H. speciosa和B. gaudichadii幼苗。
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来源期刊
CiteScore
3.30
自引率
0.00%
发文量
54
审稿时长
6 months
期刊介绍: The journal encompasses a broad range of research aspects concerning forest science: forest ecology, biodiversity/genetics and ecophysiology, silviculture, forest inventory and planning, forest protection and monitoring, forest harvesting, landscape ecology, forest history, wood technology.
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